London und Kilchberg, January 2017 - nanoFlowcell Holdings announced in October 2016 that it has successfully achieved variable controllability for flow cells. Following extensive testing with the QUANTiNO 48VOLT, the company now confirms that the redesigned nanoFlowcell system architecture for electric vehicles is suitable for (series) production. By being able to vary fuel cell control directly and thus dispense with the previously necessary supercapacitors (supercaps), nanoFlowcell Holdings has made important progress in flow cell research, enabling a significant reduction in the cost and weight of drive systems for electric cars.

Following the long sought-after technological breakthrough in directly variable control of flow cells achieved by nanoFlowcell Holdings last October, the redesigned low-voltage flow cell drive without supercapacitors has been undergoing extensive testing in the QUANTiNO 48VOLT. The benefits of the flow-cell based drive technology compared with other electric drive systems i.e. with lithium-ion batteries or hydrogen fuel cells are remarkable, particularly in respect of power, range, environmental compatibility, cost-effectiveness and safety.

"The average range of current electric cars stands around the low three-digit mark, with most far from able to sustain motorway speeds for extended periods. Moreover, no car manufacturer is currently making money with electric vehicles - too expensive to produce and sales incentives too high. With the QUANTiNO, we want to show that electric mobility can be different," explains Nunzio La Vecchia, Chief Technology Officer of nanoFlowcell Holdings. "The QUANTiNO 48VOLT offers not only the range and speed of a regular car with an internal combustion engine, our flow cell vehicle is also more economical and environmentally friendly than any other electric vehicle on the market. It therefore comes as no surprise that our flow cell drive is making a big impression on expert automotive OEMs - at the end of the day, our nanoFlowcell technology opens up completely new horizons in the field of electric vehicle drives."

It has previously not been possible to vary the control of flow cells directly, meaning they needed buffer storage, so-called supercapacitors, to be able to manage the flow of current for regulating driving speed. However, supercapacitors are very expensive and comparatively heavy. The breakthrough with the new low-voltage flow cell drive in the QUANTiNO 48VOLT is that it will no longer require supercapacitors. Electric vehicles driven by nanoFlowcell are not only safe, environmentally compatible and efficient to run, they will also be considerably more cost-effective to produce in future than comparable electric vehicles with a lithium-ion battery or hydrogen fuel cell.

For widespread implementation of electric mobility, these are important technological and economic prerequisites that have so far not be met by any electric vehicle concepts currently on the market.

"We are seeing an extremely high level of interest from the OEM and supplier industries in our flow cell technology and the concept we have developed for a low-voltage flow cell drive," says La Vecchia. "We are involved in active dialogue with the industry and I can well imagine that we will realise the new concept for the nanoFlowcell® 48VOLT low-voltage drive in a standalone QUANT prototype in collaboration with an industry partner."

La Vecchia intends to announce more details on the new low-voltage prototype with flow cell drive soon. The company founder and inventor of nanoFlowcell® remains guarded on the status of negotiations with the industry as discussions on the matter have yet to be concluded.